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Responses of Hawaiian Albatrosses to Environmental Change Data outputs and metadata
Tracking Climate Change in Hawai’i: Status and Prospects GIS data
Facilitating Adaptation in Montane Plants to Changing Precipitation along an Elevation Gradient Symposium Poster
Current and year 2100 (SRES A1B) climate envelopes for all native species datasets for “A landscape-based assessment of climate change vulnerability for native Hawaiian plants”.
Categories: Data; Tags: Data, LCC Science Catalog, completed
A Brochure describing the Climate Change and Invasive Species Impacts on Watersheds WDST
A Tool for Understanding Climate Change and Invasive Species Impacts on Watersheds Final Report.
Strong evidence on climate change underscores the need for actions to reduce the impacts of sea-level rise. Global mean sea level may rise 0.18–0.48 m by mid-century1, 2 and 0.5–1.4 m by the end of the century2. Besides marine inundation, it is largely unrecognized that low-lying coastal areas may also be vulnerable to groundwater inundation, which is localized coastal-plain flooding due to a rise of the groundwater table with sea level. Measurements of the coastal groundwater elevation and tidal influence in urban Honolulu, Hawaii, allow estimates of the mean water table, which was used to assess vulnerability to groundwater inundation from sea-level rise. We find that 0.6 m of potential sea-level rise causes substantial...
Final report for the project titled “Field Monitoring and Analysis of Climate Change Across a Wide Range of Ecosystems in Hawai‘i”
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Our project focuses on understanding patterns and causes of recent population declines in the Haleakala silversword that are associated with decreasing precipitation, increasing temperature, and related climate changes in Hawaii’s high-elevation ecosystems. The Haleakala silversword is an ideal taxon with which to assess impacts from climate change. It forms the foundation of a diverse alpine community and likely reflects wider ecological changes; it is already exhibiting patterns of mortality consistent with an upslope shifting distribution; and its high visibility and symbolic status make it unmatched in educational potential. Building on extensive research infrastructure, we propose to collect the demographic...
The Weather Research and Forecasting (WRF) model has been configured as a regional climate model for the Hawaii region (HRCM) to assess the uncertainties associated with the pseudo–global warming (PGW) downscaling method using different warming increments from phase 5 of the Coupled Model Intercomparison Project (CMIP5) model experiments. Results from 15-km downscaling experiments using warming increments from 10 individual CMIP5 models for the two warming scenarios representative concentration pathway 4.5 (RCP4.5) and 8.5 (RCP8.5) are compared with experiments using multimodel mean warming increments. The results show that changes in 2-m temperatures, 10-m wind speed, rainfall, water vapor path, and trade wind...
Although climate change is predicted to place mountain-top and other narrowly endemic species at severe risk of extinction, the ecological processes involved in such extinctions are still poorly resolved. In addition, much of this biodiversity loss will likely go unobserved, and therefore largely unappreciated. The Haleakalā silversword is restricted to a single volcano summit in Hawai‘i, but is a highly charismatic giant rosette plant that is viewed by 1–2 million visitors annually. We link detailed local climate data to a lengthy demographic record, and combine both with a population-wide assessment of recent plant mortality and recruitment, to show that after decades of strong recovery following successful management,...
Future Wind and Wave Projections for the NPS and USFWS-managed Islands in the Pacific Ocean GIS Data
Understanding how climate change is affecting Hawaii’s high-elevation ecosystems: an assessment of the long-term viability of Haleakala silverswords and associated biological communities Final Report
Local Ecological Knowledge and Climate Change Portal housing all of the data and products produced from this project.
Identifying opportunities for long-lasting habitat conservation and restoration in Hawaii’s shifting climate GeoTiffs
We have developed autonomous and high precision sensor arrays to monitor growth of individual native plants along with local environmental conditions, coupled with wireless data loggers that can provide real-time data available to managers and the wider public. We deployed an experimental set of these sensors, integrated with a weather station, 2 webcams, and a live web portal (construction in progress) to showcase how this real time information can be useful to relevant managers while also raising awareness of the challenges of climate change adaptation and Hawaiian plant conservation in general. With the increasing popularity of wildlife web-cams, it has been shown that this type of technology has a strong ability...
Increased water levels, erosion, salinity, and flooding associated with sea-level rise threaten coastal and wetland habitats of endangered waterbirds, sea turtles, monk seals, and migratory shorebirds. As sea-level rises the greatest challenge will be prioritizing management actions in response to impacts. We provide decision makers with two solutions to adaptively manage the impacts of SLR and apply these methods to three coastal wetland environments at Keālia National Wildlife Refuge (south Maui), Kanaha State Wildlife Sanctuary (north Maui), and James Campbell National Wildlife Refuge (north O‘ahu). Firstly, due to the low gradient of most coastal plain environments, the rate of SLR impact will rapidly accelerate...
This final report summarizes the project’s major accomplishments in research, training and product development. We have accomplished our primary goals of this project. With our research we contribute significant new information to the monitoring and assessment of ongoing climatic changes in Hawai‘i. Over the last decades the general trends in the wet season rainfall was negative and given the modeled climate scenarios from CMIP3 and CMIP5, it is very likely these trends are going to continue in the 21st century. In this research project, we improved the spatial information content of our statistical downscaling method through the introduction of the Rainfall Atlas of Hawai‘i station data sets and the use of improved...
map background search result map search result map Understanding how climate change is affecting Hawaii's high-elevation ecosystems: an assessment of the long-term viability of Haleakala silverswords and associated biological communities Understanding how climate change is affecting Hawaii's high-elevation ecosystems: an assessment of the long-term viability of Haleakala silverswords and associated biological communities